Land-use choices follow profitability at the expense of ecological functions in Indonesian smallholder landscapes

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Abstract

Smallholder-dominated agricultural mosaic landscapes are highlighted as model production systems that deliver both economic and ecological goods in tropical agricultural landscapes, but trade-offs underlying current land-use dynamics are poorly known. Here, using the most comprehensive quantification of land-use change and associated bundles of ecosystem functions, services and economic benefits to date, we show that Indonesian smallholders predominantly choose farm portfolios with high economic productivity but low ecological value. The more profitable oil palm and rubber monocultures replace forests and agroforests critical for maintaining above- and below-ground ecological functions and the diversity of most taxa. Between the monocultures, the higher economic performance of oil palm over rubber comes with the reliance on fertilizer inputs and with increased nutrient leaching losses. Strategies to achieve an ecological-economic balance and a sustainable management of tropical smallholder landscapes must be prioritized to avoid further environmental degradation.

Abstract

Small-scale farmers in Southeast Asia are increasingly turning to monocultures of oil palm and rubber to maximize income. Clough and colleagues demonstrate that this land-use change in Indonesia comes at a cost to a wide array of ecosystem functions and biodiversity.

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Most cited references 14

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AFLP: a new technique for DNA fingerprinting.

P. Vos, R Hogers, M. Bleeker … (1995)

A novel DNA fingerprinting technique called AFLP is described. The AFLP technique is based on the selective PCR amplification of restriction fragments from a total digest of genomic DNA. The technique involves three steps: (i) restriction of the DNA and ligation of oligonucleotide adapters, (ii) selective amplification of sets of restriction fragments, and (iii) gel analysis of the amplified fragments. PCR amplification of restriction fragments is achieved by using the adapter and restriction site sequence as target sites for primer annealing. The selective amplification is achieved by the use of primers that extend into the restriction fragments, amplifying only those fragments in which the primer extensions match the nucleotides flanking the restriction sites. Using this method, sets of restriction fragments may be visualized by PCR without knowledge of nucleotide sequence. The method allows the specific co-amplification of high numbers of restriction fragments. The number of fragments that can be analyzed simultaneously, however, is dependent on the resolution of the detection system. Typically 50-100 restriction fragments are amplified and detected on denaturing polyacrylamide gels. The AFLP technique provides a novel and very powerful DNA fingerprinting technique for DNAs of any origin or complexity.

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Ecosystem service bundles for analyzing tradeoffs in diverse landscapes.

C Raudsepp-Hearne, G D Peterson, E M Bennett (2010)

A key challenge of ecosystem management is determining how to manage multiple ecosystem services across landscapes. Enhancing important provisioning ecosystem services, such as food and timber, often leads to tradeoffs between regulating and cultural ecosystem services, such as nutrient cycling, flood protection, and tourism. We developed a framework for analyzing the provision of multiple ecosystem services across landscapes and present an empirical demonstration of ecosystem service bundles, sets of services that appear together repeatedly. Ecosystem service bundles were identified by analyzing the spatial patterns of 12 ecosystem services in a mixed-use landscape consisting of 137 municipalities in Quebec, Canada. We identified six types of ecosystem service bundles and were able to link these bundles to areas on the landscape characterized by distinct social-ecological dynamics. Our results show landscape-scale tradeoffs between provisioning and almost all regulating and cultural ecosystem services, and they show that a greater diversity of ecosystem services is positively correlated with the provision of regulating ecosystem services. Ecosystem service-bundle analysis can identify areas on a landscape where ecosystem management has produced exceptionally desirable or undesirable sets of ecosystem services.

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Agricultural expansion and its impacts on tropical nature.

William F. Laurance, Jeffrey A Sayer, Kenneth Cassman (2014)

The human population is projected to reach 11 billion this century, with the greatest increases in tropical developing nations. This growth, in concert with rising per-capita consumption, will require large increases in food and biofuel production. How will these megatrends affect tropical terrestrial and aquatic ecosystems and biodiversity? We foresee (i) major expansion and intensification of tropical agriculture, especially in Sub-Saharan Africa and South America; (ii) continuing rapid loss and alteration of tropical old-growth forests, woodlands, and semi-arid environments; (iii) a pivotal role for new roadways in determining the spatial extent of agriculture; and (iv) intensified conflicts between food production and nature conservation. Key priorities are to improve technologies and policies that promote more ecologically efficient food production while optimizing the allocation of lands to conservation and agriculture. Copyright © 2013 Elsevier Ltd. All rights reserved.

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Author and article information

Journal

Journal ID (nlm-ta): Nat Commun

Journal ID (iso-abbrev): Nat Commun

Title: Nature Communications

Publisher: Nature Publishing Group

ISSN (Electronic): 2041-1723

Publication date (Electronic): 11 October 2016

Publication date Collection: 2016

Volume: 7

Electronic Location Identifier: 13137

Affiliations

[1 ]Centre for Environmental and Climate Research, Lund University , Sölvegatan 37, 22362 Lund, Sweden

[2 ]Department of Crop Sciences, Agroecology, Georg August University Göttingen , Grisebachstr. 6, 37077 Göttingen, Germany

[3 ]Department of Agricultural Economics and Rural Development, Georg August University Göttingen , Platz der Göttinger Sieben 5, 37073 Göttingen, Germany

[4 ]Soil Science of Tropical and Subtropical Ecosystems, Büsgen Institute, Georg August University Göttingen , Büsgenweg 2, 37077 Göttingen, Germany

[5 ]Bioclimatology, Georg August University Göttingen , Büsgenweg 2, 37077 Göttingen, Germany

[6 ]Institute of Social and Cultural Anthropology, Georg August University Göttingen , Theaterplatz 15, 37073 Göttingen, Germany

[7 ]Systemic Conservation Biology, Georg August University Göttingen , Berliner Str. 28, 37073 Göttingen, Germany

[8 ]German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig , Deutscher Platz 5e, 04103 Leipzig, Germany

[9 ]Forest Genetics and Forest Tree Breeding, Büsgen Institute, Georg August University Göttingen , Büsgenweg 2, 37077 Göttingen, Germany

[10 ]Institute of Ecology, Friedrich Schiller University Jena , Dornburger-Str. 159, Jena 07743, Germany

[11 ]Department of Plant Protection, Faculty of Agriculture, Bogor Agricultural University Jalan Kamper Kampus IPB Darmaga , Bogor 16680, Indonesia

[12 ]Department of Genomic and Applied Microbiology and Göttingen Genomics Laboratory, Institute of Microbiology and Genetics, Georg August University Göttingen , Grisebachstr. 8, 37077 Göttingen, Germany

[13 ]Department of Plant Ecology and Ecosystems Research, Georg August University Göttingen , Untere Karspüle 2, 37073 Göttingen, Germany

[14 ]Department of Systematics, Biodiversity and Evolution of Plants, Georg August University Göttingen , Untere Karspüle 2, 37073 Göttingen, Germany

[15 ]Forestry Faculty, University of Jambi, Campus Pinang Masak Mendalo , Jambi 36361, Indonesia

[16 ]Forest Resources Inventory and Remote Sensing, Bogor Agricultural University, Kampus IPB Darmaga , Bogor 16680, Indonesia

[17 ]JF Blumenbach Institute of Zoology and Anthropology, Animal Ecology, Georg August University Göttingen , Berliner Str. 28, 37073 Göttingen, Germany

[18 ]Biodiversity, Macroecology & Conservation Biogeography, Georg August University Göttingen , Büsgenweg 1, 37077 Göttingen, Germany

[19 ]Department of Soil Science, Faculty of Agriculture, Brawijaya University . Jl. Veteran 56 Malang, East Java, 65145, Indonesia

[20 ]Forest Inventory and Remote Sensing, Burckhardt Institute, Georg August University Göttingen , Büsgenweg 5, 37077 Göttingen, Germany

[21 ]Conservation Biology Division, Institute of Ecology and Evolution, University of Bern , Baltzerstrasse 6, CH-3012 Bern, Switzerland

[22 ]Department of Plant Pests and Diseases, Faculty of Agriculture, University of Brawijaya . Jl. Veteran Malang, East Java 65145, Indonesia

[23 ]SEAMEO BIOTROP Regional Center for Tropical Biology , Jl. Raya Tajur km 6, Bogor 16134, Indonesia

[24 ]Faculty of Agriculture, Tadulako University , Jl. Soekarno Hatta km 09 Tondo, Palu 94118, Indonesia

Author notes

[a ] Yann.Clough@ 123456cec.lu.se

[*]

Present address: Marine and Environmental Management, School of Applied Science, Waiariki Bay of Plenty Polytechnic, 70 Windermere Drive, Tauranga 3112, New Zealand

[†]

Present address: Institute of Biology, Leipzig University, Johannisallee 21, 04103 Leipzig, Germany

[‡]

Present address: University of Kassel, Mönchebergstr. 19, 34125 Kassel, Germany

Author information

Andrew D. Barnes http://orcid.org/0000-0002-6499-381X

Rolf Daniel http://orcid.org/0000-0002-8646-7925

Malte Jochum http://orcid.org/0000-0002-8728-1145

Akhmad Rizali http://orcid.org/0000-0002-6673-6198

Article

Publisher Item ID: ncomms13137

DOI: 10.1038/ncomms13137

PMC ID: 5062595

PubMed ID: 27725673

SO-VID: 3e0cdef6-4520-4368-aaf0-5df7b6f5503b

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Land-use choices follow profitability at the expense of ecological functions in Indonesian smallholder landscapes

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Journal of European Landscapes

Most cited references 14

AFLP: a new technique for DNA fingerprinting.

Ecosystem service bundles for analyzing tradeoffs in diverse landscapes.

Agricultural expansion and its impacts on tropical nature.

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